1 2191 157 EPIGENETIC MEMORY CONTRIBUTING TO THE PATHOGENESIS OF AKI-TO-CKD TRANSITION. EPIGENETIC MEMORY, WHICH REFERS TO THE ABILITY OF CELLS TO RETAIN AND TRANSMIT EPIGENETIC MARKS TO THEIR DAUGHTER CELLS, MAINTAINS UNIQUE GENE EXPRESSION PATTERNS. ESTABLISHING PROGRAMMED EPIGENETIC MEMORY AT EACH STAGE OF DEVELOPMENT IS REQUIRED FOR CELL DIFFERENTIATION. MOREOVER, ACCUMULATING EVIDENCE SHOWS THAT EPIGENETIC MEMORY ACQUIRED IN RESPONSE TO ENVIRONMENTAL STIMULI MAY BE ASSOCIATED WITH DIVERSE DISEASES. IN THE FIELD OF KIDNEY DISEASES, THE "MEMORY" OF ACUTE KIDNEY INJURY (AKI) LEADS TO PROGRESSION TO CHRONIC KIDNEY DISEASE (CKD); EPIDEMIOLOGICAL STUDIES SHOW THAT PATIENTS WHO RECOVER FROM AKI ARE AT HIGH RISK OF DEVELOPING CKD. THE UNDERLYING PATHOLOGICAL PROCESSES INCLUDE NEPHRON LOSS, MALADAPTIVE EPITHELIAL REPAIR, INFLAMMATION, AND ENDOTHELIAL INJURY WITH VASCULAR RAREFACTION. FURTHER, EPIGENETIC ALTERATIONS MAY CONTRIBUTE AS WELL TO THE PATHOPHYSIOLOGY OF THIS AKI-TO-CKD TRANSITION. EPIGENETIC CHANGES INDUCED BY AKI, WHICH CAN BE RECORDED IN CELLS, EXERT LONG-TERM EFFECTS AS EPIGENETIC MEMORY. CONSIDERING THE LATEST FINDINGS ON THE MOLECULAR BASIS OF EPIGENETIC MEMORY AND THE PATHOPHYSIOLOGY OF AKI-TO-CKD TRANSITION, WE PROPOSE HERE THAT EPIGENETIC MEMORY CONTRIBUTING TO AKI-TO-CKD TRANSITION CAN BE CLASSIFIED ACCORDING TO THE PRESENCE OR ABSENCE OF PERSISTENT CHANGES IN THE ASSOCIATED REGULATION OF GENE EXPRESSION, WHICH WE DESIGNATE "DRIVING" MEMORY AND "PRIMING" MEMORY, RESPECTIVELY. "DRIVING" MEMORY, WHICH PERSISTENTLY ALTERS THE REGULATION OF GENE EXPRESSION, MAY CONTRIBUTE TO DISEASE PROGRESSION BY ACTIVATING FIBROGENIC GENES OR INHIBITING RENOPROTECTIVE GENES. THIS PROCESS MAY BE INVOLVED IN GENERATING THE PROINFLAMMATORY AND PROFIBROTIC PHENOTYPES OF MALADAPTIVELY REPAIRED TUBULAR CELLS AFTER KIDNEY INJURY. "PRIMING" MEMORY IS STORED IN SEEMINGLY SUCCESSFULLY REPAIRED TUBULAR CELLS IN THE ABSENCE OF DETECTABLE PERSISTENT PHENOTYPIC CHANGES, WHICH MAY ENHANCE A SUBSEQUENT TRANSCRIPTIONAL RESPONSE TO THE SECOND STIMULUS. THIS TYPE OF MEMORY MAY CONTRIBUTE TO AKI-TO-CKD TRANSITION THROUGH THE CUMULATIVE EFFECTS OF ENHANCED EXPRESSION OF PROFIBROTIC GENES REQUIRED FOR WOUND REPAIR AFTER RECURRENT AKI. FURTHER UNDERSTANDING OF EPIGENETIC MEMORY WILL IDENTIFY THERAPEUTIC TARGETS OF FUTURE EPIGENETIC INTERVENTION TO PREVENT AKI-TO-CKD TRANSITION. 2022 2 6451 49 THERAPIES TARGETING EPIGENETIC ALTERATIONS IN ACUTE KIDNEY INJURY-TO-CHRONIC KIDNEY DISEASE TRANSITION. ACUTE KIDNEY INJURY (AKI) WAS PREVIOUSLY THOUGHT TO BE A MERELY TRANSIENT EVENT; HOWEVER, RECENT EPIDEMIOLOGICAL EVIDENCE SUPPORTS THE EXISTENCE OF A CAUSAL RELATIONSHIP BETWEEN AKI EPISODES AND SUBSEQUENT PROGRESSION TO CHRONIC KIDNEY DISEASE (CKD). ALTHOUGH THE PATHOPHYSIOLOGY OF THIS AKI-TO-CKD TRANSITION IS NOT FULLY UNDERSTOOD, IT IS MEDIATED BY THE INTERPLAY AMONG MULTIPLE COMPONENTS OF THE KIDNEY INCLUDING TUBULAR EPITHELIAL CELLS, ENDOTHELIAL CELLS, PERICYTES, INFLAMMATORY CELLS, AND MYOFIBROBLASTS. EPIGENETIC ALTERATIONS INCLUDING HISTONE MODIFICATION, DNA METHYLATION, NON-CODING RNAS, AND CHROMATIN CONFORMATIONAL CHANGES, ARE ALSO EXPECTED TO BE LARGELY INVOLVED IN THE PATHOPHYSIOLOGY AS A "MEMORY" OF THE INITIAL INJURY THAT CAN PERSIST AND PREDISPOSE TO CHRONIC PROGRESSION OF FIBROSIS. EACH EPIGENETIC MODIFICATION HAS A GREAT POTENTIAL AS A THERAPEUTIC TARGET OF AKI-TO-CKD TRANSITION; TIMELY AND TARGET-SPECIFIC EPIGENETIC INTERVENTIONS TO THE VARIOUS TEMPORAL STAGES OF AKI-TO-CKD TRANSITION WILL BE THE KEY TO FUTURE THERAPEUTIC APPLICATIONS IN CLINICAL PRACTICE. THIS REVIEW ELABORATES ON THE LATEST KNOWLEDGE OF EACH MECHANISM AND THE CURRENTLY AVAILABLE THERAPEUTIC AGENTS THAT TARGET EPIGENETIC MODIFICATION IN THE CONTEXT OF AKI-TO-CKD TRANSITION. FURTHER STUDIES WILL ELUCIDATE MORE DETAILED MECHANISMS AND NOVEL THERAPEUTIC TARGETS OF AKI-TO-CKD TRANSITION. 2022 3 2293 40 EPIGENETIC REGULATION IN THE ACUTE KIDNEY INJURY TO CHRONIC KIDNEY DISEASE TRANSITION. EPIGENETIC MODIFICATIONS HAVE EMERGED AS A NEW, IMPORTANT CONTRIBUTOR TO GENE EXPRESSION REGULATION IN BOTH NORMAL AND PATHOPHYSIOLOGICAL CONDITIONS. EPIGENETICS HAVE BEEN STUDIED IN MANY DISEASES AND CONDITIONS SUCH AS ACUTE KIDNEY INJURY (AKI), A SYNDROME WITH A HIGH PREVALENCE THAT CARRIES A POOR PROGNOSIS WITH INCREASED MORBIDITY AND MORTALITY. IN ADDITION, IT HAS RECENTLY BEEN SHOWN THAT AKI INCREASES THE RISK FOR THE DEVELOPMENT OF CHRONIC KIDNEY DISEASE (CKD). THE SPECIFIC MOLECULAR MECHANISMS BY WHICH AKI INCREASES THE RISK OF CKD AND END STAGE RENAL DISEASE (ESRD) REMAIN UNKNOWN, ALTHOUGH THERE IS NEW EVIDENCE SUPPORTING A ROLE OF EPIGENETIC CHANGES. THE MOST STUDIED EPIGENETIC REGULATIONS IN AKI ARE CHROMATIN COMPACTION, DNA METHYLATION, AND HISTONE ACETYLATION/DEACETYLATION. THESE MODIFICATIONS PREDOMINANTLY INCREASE THE PRODUCTION OF PRO-INFLAMMATORY AND PROFIBROTIC CYTOKINES SUCH AS: MONOCYTE CHEMOATTRACTANT PROTEIN-1 (MCP-1), COMPLEMENT PROTEIN 3 (C3), TRANSFORMING GROWTH FACTOR BETA (TGF-BETA) THAT HAVE BEEN SHOWN FOR PERPETUATING INFLAMMATION, PROMOTING EPITHELIAL-TO-MESENCHYMAL TRANSITION (EMT) AND ULTIMATELY CAUSING RENAL FIBROSIS. A REVIEW OF EPIGENETIC MECHANISMS, THE PATHOPHYSIOLOGY OF AKI AND RECENT STUDIES THAT IMPLICATE EPIGENETIC MODIFICATIONS IN AKI AND IN THE TRANSITION TO CKD ARE DISCUSSED BELOW. 2015 4 2193 44 EPIGENETIC MODIFICATION DRIVES ACUTE KIDNEY INJURY-TO-CHRONIC KIDNEY DISEASE PROGRESSION. ACUTE KIDNEY INJURY (AKI) IS A COMMON CLINICAL CRITICAL DISEASE. DUE TO ITS HIGH MORBIDITY, INCREASING RISK OF COMPLICATIONS, HIGH MORTALITY RATE, AND HIGH MEDICAL COSTS, IT HAS BECOME A GLOBAL CONCERN FOR HUMAN HEALTH PROBLEMS. INITIALLY, RESEARCHERS BELIEVED THAT KIDNEYS HAVE A STRONG ABILITY TO REGENERATE AND REPAIR, BUT STUDIES OVER THE PAST 20 YEARS HAVE FOUND THAT KIDNEYS DAMAGED BY AKI ARE OFTEN INCOMPLETE OR EVEN UNABLE TO REPAIR. EVEN WHEN SERUM CREATININE RETURNS TO BASELINE LEVELS, RENAL STRUCTURAL DAMAGE PERSISTS FOR A LONG TIME, LEADING TO THE DEVELOPMENT OF CHRONIC KIDNEY DISEASE (CKD). THE MECHANISM OF AKI-TO-CKD TRANSITION HAS NOT BEEN FULLY ELUCIDATED. AS AN IMPORTANT REGULATOR OF GENE EXPRESSION, EPIGENETIC MODIFICATIONS, SUCH AS HISTONE MODIFICATION, DNA METHYLATION, AND NONCODING RNAS, MAY PLAY AN IMPORTANT ROLE IN THIS PROCESS. ALTERATIONS IN EPIGENETIC MODIFICATION ARE INDUCED BY HYPOXIA, THUS PROMOTING THE EXPRESSION OF INFLAMMATORY FACTOR-RELATED GENES AND COLLAGEN SECRETION. THIS REVIEW ELABORATED THE ROLE OF EPIGENETIC MODIFICATIONS IN AKI-TO-CKD PROGRESSION, THE DIAGNOSTIC VALUE OF EPIGENETIC MODIFICATIONS BIOMARKERS IN AKI CHRONIC OUTCOME, AND THE POTENTIAL ROLE OF TARGETING EPIGENETIC MODIFICATIONS IN THE PREVENTION AND TREATMENT OF AKI TO CKD, IN ORDER TO PROVIDE IDEAS FOR THE SUBSEQUENT ESTABLISHMENT OF TARGETED THERAPEUTIC STRATEGIES TO PREVENT THE PROGRESSION OF RENAL TUBULAR-INTERSTITIAL FIBROSIS. 2021 5 221 48 ACUTE KIDNEY INJURY TO CHRONIC KIDNEY DISEASE TRANSITION. BACKGROUND: ACUTE KIDNEY INJURY (AKI), EVEN IF FOLLOWED BY RENAL RECOVERY, IS A RISK FACTOR FOR THE FUTURE DEVELOPMENT OF CHRONIC KIDNEY DISEASE (CKD) AND END-STAGE RENAL DISEASE (ESRD). IN THE PREVIOUS YEARS, NOVEL INSIGHTS IN THE PATHOPHYSIOLOGY OF CKD PROGRESSION SUGGESTED A CAUSAL LINK BETWEEN AKI AND CKD DUE TO A MALADAPTIVE REPAIR AFTER SEVERE AND REPEATED INJURY. SUMMARY: SEVERAL PATHOLOGICAL MECHANISMS HAVE BEEN PROPOSED TO CONTRIBUTE TO THE PROGRESSION OF AKI AND TRANSITION TO CKD/ESRD INCLUDING HYPOXIA AND MICROVASCULAR RAREFACTION, ALTERATIONS OF RENAL RESIDENT CELL PHENOTYPES AND FUNCTIONS, CELL CYCLE ARREST IN THE G2/M PHASE, PERSISTENT CHRONIC INFLAMMATION, AND DEVELOPMENT OF INTERSTITIAL FIBROSIS, MITOCHONDRIAL FRAGMENTATION, EPIGENETIC CHANGES, ACTIVATION OF RENIN-ANGIOTENSIN SYSTEM (RAS), CELL AND TISSUE SENESCENCE. FURTHERMORE, SEVERAL CLINICAL FACTORS HAVE BEEN IDENTIFIED SUCH AS SEVERITY OF AKI, AGE, AND COMORBIDITIES. THE IDENTIFICATION OF AKI-TO-CKD BIOMARKERS COULD IMPROVE THE EARLY IDENTIFICATION OF AKI PATIENTS WITH HIGHER RISK FOR CKD PROGRESSION. HOWEVER, ALTHOUGH OUR UNDERSTANDING IN THE PATHOPHYSIOLOGY OF AKI-TO-CKD TRANSITION IS SIGNIFICANTLY IMPROVED, NO NOVEL INTERVENTION HAS BEEN VALIDATED. POTENTIAL THERAPEUTIC APPROACHES TO TREAT AKI AND BLOCK THE TRANSITION TO CKD/ESRD HAVE BEEN RECENTLY REPORTED, BUT THEY NEED FURTHER VALIDATIONS. KEY MESSAGES: MALADAPTIVE REPAIR AFTER AKI IS STRONGLY ASSOCIATED TO THE DEVELOPMENT OF CKD AND LONG-TERM CONSEQUENCES. THE PROMPT IDENTIFICATION OF PATIENTS AT HIGHER RISK FOR LATE CKD PROGRESSION AND THE DEVELOPMENT OF NEW THERAPEUTIC INTERVENTIONS REMAIN CRITICAL RESEARCH GOALS. 2018 6 3670 58 INFLAMMAGING AND COMPLEMENT SYSTEM: A LINK BETWEEN ACUTE KIDNEY INJURY AND CHRONIC GRAFT DAMAGE. THE ABERRANT ACTIVATION OF COMPLEMENT SYSTEM IN SEVERAL KIDNEY DISEASES SUGGESTS THAT THIS PILLAR OF INNATE IMMUNITY HAS A CRITICAL ROLE IN THE PATHOPHYSIOLOGY OF RENAL DAMAGE OF DIFFERENT ETIOLOGIES. A GROWING BODY OF EXPERIMENTAL EVIDENCE INDICATES THAT COMPLEMENT ACTIVATION CONTRIBUTES TO THE PATHOGENESIS OF ACUTE KIDNEY INJURY (AKI) SUCH AS DELAYED GRAFT FUNCTION (DGF) IN TRANSPLANT PATIENTS. AKI IS CHARACTERIZED BY THE RAPID LOSS OF THE KIDNEY'S EXCRETORY FUNCTION AND IS A COMPLEX SYNDROME CURRENTLY LACKING A SPECIFIC MEDICAL TREATMENT TO ARREST OR ATTENUATE PROGRESSION IN CHRONIC KIDNEY DISEASE (CKD). RECENT EVIDENCE SUGGESTS THAT INDEPENDENTLY FROM THE INITIAL TRIGGER (I.E., SEPSIS OR ISCHEMIA/REPERFUSIONS INJURY), AN EPISODE OF AKI IS STRONGLY ASSOCIATED WITH AN INCREASED RISK OF SUBSEQUENT CKD. THE AKI-TO-CKD TRANSITION MAY INVOLVE A WIDE RANGE OF MECHANISMS INCLUDING SCAR-FORMING MYOFIBROBLASTS GENERATED FROM DIFFERENT SOURCES, MICROVASCULAR RAREFACTION, MITOCHONDRIAL DYSFUNCTION, OR CELL CYCLE ARREST BY THE INVOLVEMENT OF EPIGENETIC, GENE, AND PROTEIN ALTERATIONS LEADING TO COMMON FINAL SIGNALING PATHWAYS [I.E., TRANSFORMING GROWTH FACTOR BETA (TGF-BETA), P16 (INK4A) , WNT/BETA-CATENIN PATHWAY] INVOLVED IN RENAL AGING. RESEARCH IN RECENT YEARS HAS REVEALED THAT SEVERAL STRESSORS OR COMPLICATIONS SUCH AS REJECTION AFTER RENAL TRANSPLANTATION CAN LEAD TO ACCELERATED RENAL AGING WITH DETRIMENTAL EFFECTS WITH THE ESTABLISHMENT OF CHRONIC PROINFLAMMATORY CELLULAR PHENOTYPES WITHIN THE KIDNEY. DESPITE A GREATER UNDERSTANDING OF THESE MECHANISMS, THE ROLE OF COMPLEMENT SYSTEM IN THE CONTEXT OF THE AKI-TO-CKD TRANSITION AND RENAL INFLAMMAGING IS STILL POORLY EXPLORED. THE PURPOSE OF THIS REVIEW IS TO SUMMARIZE RECENT FINDINGS DESCRIBING THE ROLE OF COMPLEMENT IN AKI-TO-CKD TRANSITION. WE WILL ALSO ADDRESS HOW AND WHEN COMPLEMENT INHIBITORS MIGHT BE USED TO PREVENT AKI AND CKD PROGRESSION, THEREFORE IMPROVING GRAFT FUNCTION. 2020 7 5258 43 PROGRESSION OF TUBULOINTERSTITIAL FIBROSIS AND THE CHRONIC KIDNEY DISEASE PHENOTYPE - ROLE OF RISK FACTORS AND EPIGENETICS. ALTHOUGH THE KIDNEY HAS CAPACITY TO REPAIR AFTER MILD INJURY, ONGOING OR SEVERE DAMAGE RESULTS IN SCARRING (FIBROSIS) AND AN ASSOCIATED PROGRESSIVE LOSS OF KIDNEY FUNCTION. HOWEVER, DESPITE ITS UNIVERSAL SIGNIFICANCE, EVIDENCE HIGHLIGHTS A POPULATION BASED HETEROGENEITY IN THE TRAJECTORY OF CHRONIC KIDNEY DISEASE (CKD) IN THESE PATIENTS. TO EXPLAIN THE HETEROGENEITY OF THE CKD PHENOTYPE REQUIRES AN UNDERSTANDING OF THE RELEVANT RISK FACTORS FOR FIBROSIS. THESE FACTORS INCLUDE BOTH THE EXTRINSIC NATURE OF INJURY, AND INTRINSIC FACTORS SUCH AS AGE, GENDER, GENETICS, AND PERPETUAL ACTIVATION OF FIBROBLASTS THROUGH PRIMING. IN MANY CASES AN ADDITIONAL LEVEL OF REGULATION IS PROVIDED BY EPIGENETIC MECHANISMS WHICH INTEGRATE THE VARIOUS PRO-FIBROTIC AND ANTI-FIBROTIC TRIGGERS IN FIBROGENESIS. IN THIS REVIEW WE THEREFORE EXAMINE THE VARIOUS MOLECULAR AND STRUCTURAL CHANGES OF FIBROSIS, AND HOW THEY ARE INFLUENCED BY EXTRINSIC AND INTRINSIC FACTORS. OUR AIM IS TO PROVIDE A UNIFYING HYPOTHESIS TO HELP EXPLAIN THE TRANSITION FROM ACUTE TO CKD. 2017 8 4381 47 MITOCHONDRIAL DYSFUNCTION AND THE AKI-TO-CKD TRANSITION. ACUTE KIDNEY INJURY (AKI) HAS BEEN WIDELY RECOGNIZED AS AN IMPORTANT RISK FACTOR FOR THE OCCURRENCE AND DEVELOPMENT OF CHRONIC KIDNEY DISEASE (CKD). EVEN MILDER AKI HAS ADVERSE CONSEQUENCES AND COULD PROGRESS TO RENAL FIBROSIS, WHICH IS THE ULTIMATE COMMON PATHWAY FOR VARIOUS TERMINAL KIDNEY DISEASES. THUS, IT IS URGENT TO DEVELOP A STRATEGY TO HINDER THE TRANSITION FROM AKI TO CKD. SOME MECHANISMS OF THE AKI-TO-CKD TRANSITION HAVE BEEN REVEALED, SUCH AS NEPHRON LOSS, CELL CYCLE ARREST, PERSISTENT INFLAMMATION, ENDOTHELIAL INJURY WITH VASCULAR RAREFACTION, AND EPIGENETIC CHANGES. PREVIOUS STUDIES HAVE ELUCIDATED THE PIVOTAL ROLE OF MITOCHONDRIA IN ACUTE INJURIES AND DEMONSTRATED THAT THE FITNESS OF THIS ORGANELLE IS A MAJOR DETERMINANT IN BOTH THE PATHOGENESIS AND RECOVERY OF ORGAN FUNCTION. RECENT RESEARCH HAS SUGGESTED THAT DAMAGE TO MITOCHONDRIAL FUNCTION IN EARLY AKI IS A CRUCIAL FACTOR LEADING TO TUBULAR INJURY AND PERSISTENT RENAL INSUFFICIENCY. DYSREGULATION OF MITOCHONDRIAL HOMEOSTASIS, ALTERATIONS IN BIOENERGETICS, AND ORGANELLE STRESS CROSS TALK CONTRIBUTE TO THE AKI-TO-CKD TRANSITION. IN THIS REVIEW, WE FOCUS ON THE PATHOPHYSIOLOGY OF MITOCHONDRIA IN RENAL RECOVERY AFTER AKI AND PROGRESSION TO CKD, CONFIRMING THAT TARGETING MITOCHONDRIA REPRESENTS A POTENTIALLY EFFECTIVE THERAPEUTIC STRATEGY FOR THE PROGRESSION OF AKI TO CKD. 2020 9 1474 41 DISTINCT PATTERNS OF TRANSCRIPTIONAL AND EPIGENETIC ALTERATIONS CHARACTERIZE ACUTE AND CHRONIC KIDNEY INJURY. ACUTE KIDNEY INJURY (AKI) AND CHRONIC KIDNEY DISEASE (CKD) ARE CONSIDERED EARLY AND LATE PHASES OF A PATHOLOGIC CONTINUUM OF INTERCONNECTED DISEASE STATES. ALTHOUGH CHANGES IN GENE EXPRESSION PATTERNS HAVE RECENTLY BEEN ELUCIDATED FOR THE TRANSITION OF AKI TO CKD, THE EPIGENETIC REGULATION OF KEY KIDNEY INJURY RELATED GENES REMAINS POORLY UNDERSTOOD. WE USED MULTIPLEX RT-QPCR, CHIP-QPCR AND INTEGRATIVE ANALYSIS TO COMPARE TRANSCRIPTIONAL AND EPIGENETIC CHANGES AT RENAL DISEASE-ASSOCIATED GENES ACROSS MOUSE AKI AND CKD MODELS. THESE STUDIES SHOWED THAT: (I) THERE ARE SUBSETS OF GENES WITH DISTINCT TRANSCRIPTIONAL AND EPIGENETICALLY PROFILES SHARED BY AKI AND CKD BUT ALSO SUBSETS THAT ARE SPECIFIC TO EITHER THE EARLY OR LATE STAGES OF RENAL INJURY; (II) DIFFERENCES IN EXPRESSION OF A SMALL NUMBER OF GENES IS SUFFICIENT TO DISTINGUISH AKI FROM CKD; (III) TRANSCRIPTION PLAYS A KEY ROLE IN THE UPREGULATION OF BOTH AKI AND CKD GENES WHILE POST-TRANSCRIPTIONAL REGULATION APPEARS TO PLAY A MORE SIGNIFICANT ROLE IN DECREASED EXPRESSION OF BOTH AKI AND CKD GENES; AND (IV) SUBSETS OF TRANSCRIPTIONALLY UPREGULATED GENES SHARE EPIGENETIC SIMILARITIES WHILE DOWNREGULATED GENES DO NOT. COLLECTIVELY, OUR STUDY SUGGESTS THAT IDENTIFIED COMMON TRANSCRIPTIONAL AND EPIGENETIC PROFILES OF KIDNEY INJURY LOCI COULD BE EXPLOITED FOR THERAPEUTIC TARGETING IN AKI AND CKD. 2018 10 859 37 CHROMATIN DYNAMICS IN KIDNEY DEVELOPMENT AND FUNCTION. EPIGENETIC MECHANISMS ARE FUNDAMENTAL KEY FEATURES OF DEVELOPING CELLS CONNECTING DEVELOPMENTAL REGULATORY FACTORS TO CHROMATIN MODIFICATION. CHANGES IN THE ENVIRONMENT DURING RENAL DEVELOPMENT CAN HAVE LONG-LASTING EFFECTS ON THE PERMANENT TISSUE STRUCTURE AND THE LEVEL OF EXPRESSION OF IMPORTANT FUNCTIONAL GENES. THESE CHANGES ARE BELIEVED TO CONTRIBUTE TO KIDNEY DISEASE OCCURRENCE AND PROGRESSION. ALTHOUGH THE MECHANISMS OF EARLY PATTERNING AND CELL FATE HAVE BEEN WELL DESCRIBED FOR RENAL DEVELOPMENT, LITTLE IS KNOWN ABOUT ASSOCIATED EPIGENETIC MODIFICATIONS AND THEIR IMPACT ON HOW GENES INTERACT TO SPECIFY THE RENAL EPITHELIAL CELLS OF NEPHRONS AND HOW THIS SPECIFICATION IS RELEVANT TO MAINTAINING NORMAL RENAL FUNCTION. A BETTER UNDERSTANDING OF THE RENAL CELL-SPECIFIC EPIGENETIC MODIFICATIONS AND THE INTERACTION OF DIFFERENT CELL TYPES TO FORM THIS HIGHLY COMPLEX ORGAN WILL NOT ONLY HELP TO BETTER UNDERSTAND DEVELOPMENTAL DEFECTS AND EARLY LOSS OF KIDNEY FUNCTION IN CHILDREN, BUT ALSO HELP TO UNDERSTAND AND IMPROVE CHRONIC DISEASE PROGRESSION, CELL REGENERATION AND RENAL AGING. 2014 11 5660 42 SEX-SPECIFIC EPIGENETIC PROGRAMMING IN RENAL FIBROSIS AND INFLAMMATION. THE GROWING PREVALENCE OF HYPERTENSION, HEART DISEASE, DIABETES, AND OBESITY ALONG WITH AN AGING POPULATION, IS LEADING TO HIGHER INCIDENCE OF RENAL DISEASES IN THE SOCIETY. CHRONIC KIDNEY DISEASE (CKD) IS CHARACTERIZED MAINLY BY PERSISTENT INFLAMMATION, FIBROSIS, AND GRADUAL LOSS OF RENAL FUNCTION LEADING TO RENAL FAILURE. SEX IS A KNOWN CONTRIBUTOR TO THE DIFFERENCES IN INCIDENCE AND PROGRESSION OF CKD. EPIGENETIC PROGRAMMING IS AN ESSENTIAL REGULATOR OF RENAL PHYSIOLOGY AND IS CRITICALLY INVOLVED IN THE PATHOPHYSIOLOGY OF RENAL INJURY AND FIBROSIS. EPIGENETIC SIGNALING INTEGRATES INTRINSIC AND EXTRINSIC SIGNALS ONTO THE GENOME, AND VARIOUS ENVIRONMENTAL AND HORMONAL STIMULI, INCLUDING SEX HORMONES, WHICH REGULATE GENE EXPRESSION AND DOWNSTREAM CELLULAR RESPONSES. THE MOST EXTENSIVELY STUDIED EPIGENETIC ALTERATIONS THAT PLAY A CRITICAL ROLE IN RENAL DAMAGE INCLUDE HISTONE MODIFICATIONS AND DNA METHYLATION. NOTABLY, THESE EPIGENETIC ALTERATIONS ARE REVERSIBLE, MAKING THEM CANDIDATES FOR POTENTIAL THERAPEUTIC TARGETS FOR THE TREATMENT OF RENAL DISEASES. HERE, WE WILL SUMMARIZE THE CURRENT KNOWLEDGE ON SEX-DIFFERENCES IN EPIGENETIC MODULATION OF RENAL FIBROSIS AND INFLAMMATION AND HIGHLIGHT SOME POSSIBLE EPIGENETIC THERAPEUTIC STRATEGIES FOR CKD TREATMENT. 2023 12 1604 46 DNA METHYLATION SUSTAINS "INFLAMED" MEMORY OF PERIPHERAL IMMUNE CELLS AGGRAVATING KIDNEY INFLAMMATORY RESPONSE IN CHRONIC KIDNEY DISEASE. THE INCIDENCE OF CHRONIC KIDNEY DISEASE (CKD) HAS RAPIDLY INCREASED IN THE PAST DECADES. A PROGRESSIVE LOSS OF KIDNEY FUNCTION CHARACTERIZES A PART OF CKD EVEN WITH INTENSIVE SUPPORTIVE TREATMENT. IRRESPECTIVE OF ITS ETIOLOGY, CKD PROGRESSION IS GENERALLY ACCOMPANIED WITH THE DEVELOPMENT OF CHRONIC KIDNEY INFLAMMATION THAT IS PATHOLOGICALLY FEATURED BY THE LOW-GRADE BUT CHRONIC ACTIVATION OF RECRUITED IMMUNE CELLS. CUMULATIVE EVIDENCE SUPPORT THAT ABERRANT DNA METHYLATION PATTERN OF DIVERSE PERIPHERAL IMMUNE CELLS, INCLUDING T CELLS AND MONOCYTES, IS CLOSELY ASSOCIATED WITH CKD DEVELOPMENT IN MANY CHRONIC DISEASE SETTINGS. THE CHANGE OF DNA METHYLATION PROFILE CAN SUSTAIN FOR A LONG TIME AND AFFECT THE FUTURE GENES EXPRESSION IN THE CIRCULATING IMMUNE CELLS EVEN AFTER THEY MIGRATE FROM THE CIRCULATION INTO THE INVOLVED KIDNEY. IT IS OF CLINICAL INTEREST TO REVEAL THE UNDERLYING MECHANISM OF HOW ALTERED DNA METHYLATION REGULATES THE INTENSITY AND THE TIME LENGTH OF THE INFLAMMATORY RESPONSE IN THE RECRUITED EFFECTOR CELLS. WE AND OTHERS RECENTLY DEMONSTRATED THAT ALTERED DNA METHYLATION OCCURS IN PERIPHERAL IMMUNE CELLS AND PROFOUNDLY CONTRIBUTES TO CKD DEVELOPMENT IN SYSTEMIC CHRONIC DISEASES, SUCH AS DIABETES AND HYPERTENSION. THIS REVIEW WILL SUMMARIZE THE CURRENT FINDINGS ABOUT THE INFLUENCE OF ABERRANT DNA METHYLATION ON CIRCULATING IMMUNE CELLS AND HOW IT POTENTIALLY DETERMINES THE OUTCOME OF CKD. 2021 13 6299 42 THE PROXIMAL TUBULE IS THE PRIMARY TARGET OF INJURY AND PROGRESSION OF KIDNEY DISEASE: ROLE OF THE GLOMERULOTUBULAR JUNCTION. THERE IS AN ALARMING GLOBAL INCREASE IN THE INCIDENCE OF END-STAGE KIDNEY DISEASE, FOR WHICH EARLY BIOMARKERS AND EFFECTIVE TREATMENT OPTIONS ARE LACKING. LARGELY BASED ON THE HISTOLOGY OF THE END-STAGE KIDNEY AND ON THE MODEL OF UNILATERAL URETERAL OBSTRUCTION, CURRENT INVESTIGATION IS FOCUSED ON THE PATHOGENESIS OF RENAL INTERSTITIAL FIBROSIS AS A CENTRAL MECHANISM IN THE PROGRESSION OF CHRONIC KIDNEY DISEASE (CKD). IT IS NOW RECOGNIZED THAT CUMULATIVE EPISODES OF ACUTE KIDNEY INJURY (AKI) CAN LEAD TO CKD, AND, CONVERSELY, CKD IS A RISK FACTOR FOR AKI. BASED ON RECENT AND HISTORIC STUDIES, THIS REVIEW SHIFTS ATTENTION FROM THE GLOMERULUS AND INTERSTITIUM TO THE PROXIMAL TUBULE AS THE PRIMARY SENSOR AND EFFECTOR IN THE PROGRESSION OF CKD AS WELL AS AKI. PACKED WITH MITOCHONDRIA AND DEPENDENT ON OXIDATIVE PHOSPHORYLATION, THE PROXIMAL TUBULE IS PARTICULARLY VULNERABLE TO INJURY (OBSTRUCTIVE, ISCHEMIC, HYPOXIC, OXIDATIVE, METABOLIC), RESULTING IN CELL DEATH AND ULTIMATELY IN THE FORMATION OF ATUBULAR GLOMERULI. ANIMAL MODELS OF HUMAN GLOMERULAR AND TUBULAR DISORDERS HAVE PROVIDED EVIDENCE FOR A BROAD REPERTOIRE OF MORPHOLOGICAL AND FUNCTIONAL RESPONSES OF THE PROXIMAL TUBULE, REVEALING PROCESSES OF DEGENERATION AND REPAIR THAT MAY LEAD TO NEW THERAPEUTIC STRATEGIES. MOST PROMISING ARE STUDIES THAT ENCOMPASS THE ENTIRE LIFE CYCLE FROM FETUS TO SENESCENCE, RECOGNIZING EPIGENETIC FACTORS. THE APPLICATION OF TECHNIQUES IN MOLECULAR CHARACTERIZATION OF TUBULE SEGMENTS AND THE DEVELOPMENT OF HUMAN KIDNEY ORGANOIDS MAY PROVIDE NEW INSIGHTS INTO THE MAMMALIAN KIDNEY SUBJECTED TO STRESS OR INJURY, LEADING TO BIOMARKERS OF EARLY CKD AND NEW THERAPIES. 2016 14 4668 41 NEW INSIGHTS INTO MOLECULAR MECHANISMS OF EPIGENETIC REGULATION IN KIDNEY DISEASE. THE NUMBER OF PATIENTS WITH KIDNEY FAILURE HAS INCREASED IN RECENT YEARS. DIFFERENT FACTORS CONTRIBUTE TO THE PROGRESSION OF CHRONIC KIDNEY DISEASE, INCLUDING GLOMERULAR SCLEROSIS, ATHEROSCLEROSIS OF THE RENAL ARTERIES AND TUBULOINTERSTITIAL FIBROSIS. TUBULOINTERSTITIAL INJURY IS INDUCED BY HYPOXIA AND OTHER INFLAMMATORY SIGNALS, LEADING TO FIBROBLAST ACTIVATION. TECHNOLOGICAL ADVANCES USING HIGH-THROUGHPUT SEQUENCING HAS ENABLED THE DETERMINATION OF THE EXPRESSION PROFILE OF ALMOST ALL GENES, REVEALING THAT GENE EXPRESSION IS INTRICATELY REGULATED BY DNA METHYLATION, HISTONE MODIFICATION, CHANGES IN CHROMOSOME CONFORMATION, LONG NON-CODING RNAS AND MICRORNAS. THESE EPIGENETIC MODIFICATIONS ARE STORED AS CELLULAR EPIGENETIC MEMORY. EPIGENETIC MEMORY LEADS TO ADULT-ONSET DISEASE OR AGEING IN THE LONG TERM AND MAY POSSIBLY PLAY AN IMPORTANT ROLE IN THE KIDNEY DISEASE PROCESS. HEREIN WE EMPHASIZE THE IMPORTANCE OF CLARIFYING THE MOLECULAR MECHANISMS UNDERLYING EPIGENETIC MODIFICATIONS BECAUSE THIS MAY LEAD TO THE DEVELOPMENT OF NEW THERAPEUTIC TARGETS IN KIDNEY DISEASE. 2016 15 2195 41 EPIGENETIC MODIFICATION MECHANISMS INVOLVED IN INFLAMMATION AND FIBROSIS IN RENAL PATHOLOGY. THE GROWING INCIDENCE OF OBESITY, HYPERTENSION, AND DIABETES, COUPLED WITH THE AGING OF THE POPULATION, IS INCREASING THE PREVALENCE OF RENAL DISEASES IN OUR SOCIETY. CHRONIC KIDNEY DISEASE (CKD) IS CHARACTERIZED BY PERSISTENT INFLAMMATION, FIBROSIS, AND LOSS OF RENAL FUNCTION LEADING TO END-STAGE RENAL DISEASE. NOWADAYS, CKD TREATMENT HAS LIMITED EFFECTIVENESS UNDERSCORING THE IMPORTANCE OF THE DEVELOPMENT OF INNOVATIVE THERAPEUTIC OPTIONS. RECENT STUDIES HAVE IDENTIFIED HOW EPIGENETIC MODIFICATIONS PARTICIPATE IN THE SUSCEPTIBILITY TO CKD AND HAVE EXPLAINED HOW THE ENVIRONMENT INTERACTS WITH THE RENAL CELL EPIGENOME TO CONTRIBUTE TO RENAL DAMAGE. EPIGENETIC MECHANISMS REGULATE CRITICAL PROCESSES INVOLVED IN GENE REGULATION AND DOWNSTREAM CELLULAR RESPONSES. THE MOST RELEVANT EPIGENETIC MODIFICATIONS THAT PLAY A CRITICAL ROLE IN RENAL DAMAGE INCLUDE DNA METHYLATION, HISTONE MODIFICATIONS, AND CHANGES IN MIRNA LEVELS. IMPORTANTLY, THESE EPIGENETIC MODIFICATIONS ARE REVERSIBLE AND, THEREFORE, A SOURCE OF POTENTIAL THERAPEUTIC TARGETS. HERE, WE WILL EXPLAIN HOW EPIGENETIC MECHANISMS MAY REGULATE ESSENTIAL PROCESSES INVOLVED IN RENAL PATHOLOGY AND HIGHLIGHT SOME POSSIBLE EPIGENETIC THERAPEUTIC STRATEGIES FOR CKD TREATMENT. 2018 16 607 42 BEYOND GENETICS: EPIGENETIC CODE IN CHRONIC KIDNEY DISEASE. EPIGENETICS REFERS TO A HERITABLE CHANGE IN THE PATTERN OF GENE EXPRESSION THAT IS MEDIATED BY A MECHANISM SPECIFICALLY NOT DUE TO ALTERATIONS IN THE PRIMARY NUCLEOTIDE SEQUENCE. WELL-KNOWN EPIGENETIC MECHANISMS ENCOMPASS DNA METHYLATION, CHROMATIN REMODELING (HISTONE MODIFICATIONS), AND RNA INTERFERENCE. FUNCTIONALLY, EPIGENETICS PROVIDES AN EXTRA LAYER OF TRANSCRIPTIONAL CONTROL AND PLAYS A CRUCIAL ROLE IN NORMAL PHYSIOLOGICAL DEVELOPMENT, AS WELL AS IN PATHOLOGICAL CONDITIONS. ABERRANT DNA METHYLATION IS IMPLICATED IN IMMUNE DYSFUNCTION, INFLAMMATION, AND INSULIN RESISTANCE. EPIGENETIC CHANGES MAY BE RESPONSIBLE FOR 'METABOLIC MEMORY' AND DEVELOPMENT OF MICRO- AND MACROVASCULAR COMPLICATIONS OF DIABETES. MICRORNAS ARE CRITICAL IN THE MAINTENANCE OF GLOMERULAR HOMEOSTASIS AND HENCE RNA INTERFERENCE MAY BE IMPORTANT IN THE PROGRESSION OF RENAL DISEASE. RECENT STUDIES HAVE SHOWN THAT EPIGENETIC MODIFICATIONS ORCHESTRATE THE EPITHELIAL-MESENCHYMAL TRANSITION AND EVENTUALLY FIBROSIS OF THE RENAL TISSUE. OXIDATIVE STRESS, INFLAMMATION, HYPERHOMOCYSTEINEMIA, AND UREMIC TOXINS COULD INDUCE EPIMUTATIONS IN CHRONIC KIDNEY DISEASE. EPIGENETIC ALTERATIONS ARE ASSOCIATED WITH INFLAMMATION AND CARDIOVASCULAR DISEASE IN PATIENTS WITH CHRONIC KIDNEY DISEASE. REVERSIBLE NATURE OF THE EPIGENETIC CHANGES GIVES A UNIQUE OPPORTUNITY TO HALT OR EVEN REVERSE THE DISEASE PROCESS THROUGH TARGETED THERAPEUTIC STRATEGIES. 2011 17 2034 33 EPIGENETIC CHANGES IN THE ACUTE KIDNEY INJURY-TO-CHRONIC KIDNEY DISEASE TRANSITION. PREVIOUSLY ACUTE KIDNEY INJURY (AKI) HAD BEEN BELIEVED TO BE A TRANSIENT EVENT, AND RECOVERY FROM AKI HAD BEEN THOUGHT TO LEAD TO NO CONSEQUENCES. HOWEVER, RECENT EPIDEMIOLOGICAL STUDIES HAVE SHOWN THAT EVEN IF THERE IS COMPLETE RECOVERY OF THE KIDNEY FUNCTION, AKI CAN EVENTUALLY RESULT IN CHRONIC KIDNEY DISEASE (CKD) AND EVENTUALLY IN END-STAGE KIDNEY DISEASE IN THE LONG TERM. TRANSITION OF AKI TO CKD IS MEDIATED BY MULTIPLE MECHANISMS, INCLUDING ABERRANT CELL CYCLE ARREST AND HYPOXIA. HYPOXIA OF THE KIDNEY IS INDUCED BY RAREFACTION OF THE PERITUBULAR CAPILLARIES AFTER AKI EPISODES, AND INDUCES INFLAMMATION AND FIBROSIS. IT SHOULD ALSO BE NOTED THAT EPIGENETIC CHANGES ARE CLOSELY RELATED TO HYPOXIA, AND EPIGENETIC CHANGES INDUCED BY HYPOXIA, CALLED "HYPOXIC MEMORY" CAN EXPLAIN THE AKI-TO-CKD TRANSITION IN THE LONG TERM AFTER COMPLETE RECOVERY FROM THE INITIAL AKI EPISODE. TARGETING HYPOXIA AND SUBSEQUENT EPIGENETIC CHANGES ARE PROMISING STRATEGIES TO BLOCK THE TRANSITION FROM AKI TO CKD. 2017 18 4882 45 OVERVIEW OF THE CELLULAR AND MOLECULAR BASIS OF KIDNEY FIBROSIS. THE COMMON PATHOGENETIC PATHWAY OF PROGRESSIVE INJURY IN PATIENTS WITH CHRONIC KIDNEY DISEASE (CKD) IS EPITOMIZED AS NORMAL KIDNEY PARENCHYMAL DESTRUCTION DUE TO SCARRING (FIBROSIS). UNDERSTANDING THE FUNDAMENTAL PATHWAYS THAT LEAD TO RENAL FIBROSIS IS ESSENTIAL IN ORDER TO DEVELOP BETTER THERAPEUTIC OPTIONS FOR HUMAN CKD. ALTHOUGH COMPLEX, FOUR CELLULAR RESPONSES ARE PIVOTAL. (1) AN INTERSTITIAL INFLAMMATORY RESPONSE THAT HAS MULTIPLE CONSEQUENCES-SOME HARMFUL AND OTHERS HEALING. (2) THE APPEARANCE OF A UNIQUE INTERSTITIAL CELL POPULATION OF MYOFIBROBLASTS, PRIMARILY DERIVED FROM KIDNEY STROMAL CELLS (FIBROBLASTS AND PERICYTES), THAT ARE THE PRIMARY SOURCE OF THE VARIOUS EXTRACELLULAR MATRIX PROTEINS THAT FORM INTERSTITIAL SCARS. (3) TUBULAR EPITHELIAL CELLS THAT HAVE VARIABLE AND TIME-DEPENDENT ROLES AS EARLY RESPONDERS TO INJURY AND LATER AS VICTIMS OF FIBROSIS DUE TO THE LOSS OF THEIR REGENERATIVE ABILITIES. (4) LOSS OF INTERSTITIAL CAPILLARY INTEGRITY THAT COMPROMISES OXYGEN DELIVERY AND LEADS TO A VICIOUS CASCADE OF HYPOXIA-OXIDANT STRESS THAT ACCENTUATES INJURY AND FIBROSIS. IN THE ABSENCE OF ADEQUATE ANGIOGENIC RESPONSES, A HEALTHY INTERSTITIAL CAPILLARY NETWORK IS NOT MAINTAINED. THE FIBROTIC 'SCAR' THAT TYPIFIES CKD IS AN INTERESTING CONSORTIUM OF MULTIFUNCTIONAL MACROMOLECULES THAT NOT ONLY CHANGE IN COMPOSITION AND STRUCTURE OVER TIME, BUT CAN BE DEGRADED VIA EXTRACELLULAR AND INTRACELLULAR PROTEASES. ALTHOUGH TRANSFORMING GROWTH FACTOR BETA APPEARS TO BE THE PRIMARY DRIVER OF KIDNEY FIBROSIS, A VAST ARRAY OF ADDITIONAL MOLECULES MAY HAVE MODULATING ROLES. THE IMPORTANCE OF GENETIC AND EPIGENETIC FACTORS IS INCREASINGLY APPRECIATED. AN INTRIGUING BUT INCOMPLETELY UNDERSTOOD CARDIORENAL SYNDROME UNDERLIES THE HIGH MORBIDITY AND MORTALITY RATES THAT DEVELOP IN ASSOCIATION WITH PROGRESSIVE KIDNEY FIBROSIS. 2014 19 4250 37 METHYLATION-DEMETHYLATION DYNAMICS: IMPLICATIONS OF CHANGES IN ACUTE KIDNEY INJURY. OVER THE YEARS, THE EPIGENETIC LANDSCAPE HAS GROWN INCREASINGLY COMPLEX. UNTIL RECENTLY, METHYLATION OF DNA AND HISTONES WAS CONSIDERED ONE OF THE MOST IMPORTANT EPIGENETIC MODIFICATIONS. HOWEVER, WITH THE DISCOVERY OF ENZYMES INVOLVED IN THE DEMETHYLATION PROCESS, SEVERAL EXCITING PROSPECTS HAVE EMERGED THAT FOCUS ON THE DYNAMIC REGULATION OF METHYLATION AND ITS CRUCIAL ROLE IN DEVELOPMENT AND DISEASE. AN INTERPLAY OF THE METHYLATION-DEMETHYLATION MACHINERY CONTROLS THE PROCESS OF GENE EXPRESSION. SINCE ACUTE KIDNEY INJURY (AKI), A MAJOR RISK FACTOR FOR CHRONIC KIDNEY DISEASE AND DEATH, IS CHARACTERISED BY ABERRANT EXPRESSION OF GENES, UNDERSTANDING THE DYNAMICS OF METHYLATION AND DEMETHYLATION WILL PROVIDE NEW INSIGHTS INTO THE INTRICACIES OF THE DISEASE. RESEARCH ON EPIGENETICS IN AKI HAS ONLY MADE ITS MARK IN THE RECENT YEARS BUT HAS PROVIDED COMPELLING EVIDENCE THAT IMPLICATES THE INVOLVEMENT OF METHYLATION AND DEMETHYLATION CHANGES IN ITS PATHOPHYSIOLOGY. IN THIS REVIEW, WE EXPLORE THE ROLE OF METHYLATION AND DEMETHYLATION MACHINERY IN CELLULAR EPIGENETIC CONTROL AND FURTHER DISCUSS THE CONTRIBUTION OF METHYLOMIC CHANGES AND HISTONE MODIFICATIONS TO THE PATHOPHYSIOLOGY OF AKI. 2018 20 347 52 ALTERED DNA METHYLATION IN KIDNEY DISEASE: USEFUL MARKERS AND THERAPEUTIC TARGETS. RECENT STUDIES HAVE DEMONSTRATED THE ASSOCIATION OF ALTERED EPIGENOMES WITH LIFESTYLE-RELATED DISEASES. EPIGENETIC REGULATION PROMOTES BIOLOGICAL PLASTICITY IN RESPONSE TO ENVIRONMENTAL CHANGES, AND SUCH PLASTICITY MAY CAUSE A 'MEMORY EFFECT', A SUSTAINED EFFECT OF TRANSIENT TREATMENT OR AN INSULT IN THE COURSE OF LIFESTYLE-RELATED DISEASES. WE INVESTIGATED THE SIGNIFICANCE OF EPIGENETIC CHANGES IN SEVERAL GENES REQUIRED FOR RENAL INTEGRITY, INCLUDING THE NEPHRIN GENE IN PODOCYTES, AND THE SUSTAINED ANTI-PROTEINURIC EFFECT, FOCUSING ON THE TRANSCRIPTION FACTOR KRUPPEL-LIKE FACTOR 4 (KLF4). WE FURTHER REPORTED THE ROLE OF THE DNA REPAIR FACTOR LYSINE-ACETYL TRANSFERASE 5 (KAT5), WHICH ACTS COORDINATELY WITH KLF4, IN PODOCYTE INJURY CAUSED BY A HYPERGLYCEMIC STATE THROUGH THE ACCELERATION OF DNA DAMAGE AND EPIGENETIC ALTERATION. IN CONTRAST, KAT5 IN PROXIMAL TUBULAR CELLS PREVENTS ACUTE KIDNEY INJURY VIA GLOMERULAR FILTRATION REGULATION BY AN EPIGENETIC MECHANISM AS WELL AS PROMOTION OF DNA REPAIR, INDICATING THE CELL TYPE-SPECIFIC ACTION AND ROLES OF DNA REPAIR FACTORS. THIS REVIEW SUMMARIZES EPIGENETIC ALTERATIONS IN KIDNEY DISEASES, ESPECIALLY DNA METHYLATION, AND THEIR UTILITY AS MARKERS AND POTENTIAL THERAPEUTIC TARGETS. FOCUSING ON TRANSCRIPTION FACTORS OR DNA DAMAGE REPAIR FACTORS ASSOCIATED WITH EPIGENETIC CHANGES MAY BE MEANINGFUL DUE TO THEIR CELL-SPECIFIC EXPRESSION OR ACTION. WE BELIEVE THAT A BETTER UNDERSTANDING OF EPIGENETIC ALTERATIONS IN THE KIDNEY WILL LEAD TO THE DEVELOPMENT OF A NOVEL STRATEGY FOR CHRONIC KIDNEY DISEASE (CKD) TREATMENT. 2022